Title :
SSIM-Based Perceptual Rate Control for Video Coding
Author :
Ou, Tao-Sheng ; Huang, Yi-Hsin ; Chen, Homer H.
Author_Institution :
MediaTek, Hsinchu, Taiwan
fDate :
5/1/2011 12:00:00 AM
Abstract :
The quality of video is ultimately judged by human eye; however, mean squared error and the like that have been used as quality metrics are poorly correlated with human perception. Although the characteristics of human visual system have been incorporated into perceptual-based rate control, most existing schemes do not take rate-distortion optimization into consideration. In this paper, we use the structural similarity index as the quality metric for rate-distortion modeling and develop an optimum bit allocation and rate control scheme for video coding. This scheme achieves up to 25% bit-rate reduction over the JM reference software of H.264. Under the rate-distortion optimization framework, the proposed scheme can be easily integrated with the perceptual-based mode decision scheme. The overall bit-rate reduction may reach as high as 32% over the JM reference software.
Keywords :
data compression; mean square error methods; optimisation; rate distortion theory; video coding; H.264; JM reference software; SSIM-based perceptual rate control; bit-rate reduction; human perception; human visual system; mean squared error method; optimum bit allocation; perceptual-based mode decision scheme; perceptual-based rate control scheme; rate-distortion modeling; rate-distortion optimization framework; structural similarity index; video coding; video quality; Adaptation model; Bit rate; Encoding; Humans; Indexes; Rate-distortion; H.264/AVC; optimum bit allocation; rate control; rate-distortion optimization; structural similarity index;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2011.2129890
